PSE200 Sensor connector port 4 3 2 1 Power supply/Output connector 2. Connecting power supply/output connection cable To connect the power supply/output connection cable to the controller, insert the cable connector with the C part facing down until it clicks. C 2m 21 Series PSE Specific Product Precautions 3 Be sure to read before handling.
[White] Blue [Black] Black [White] Load Switch 1 Switch 1 Switch 1 Relay Load Relay contact Blue [Black] Blue [Black] Brown [Red] Brown [Red] Brown [Red] Relay Black [White] Black [White] Blue [Black] Black [White] Switch 2 Switch 2 Switch 2 Blue [Black] Blue [Black] The indicator lights will light up when both switches are turned ON. 2 wire with 2 switch AND connection 2 wire with 2 switch
M2 M3 m2 m3 m4 10 15 25 1 2 1 2 2 2 1.4 CY1F 1.5 3 1.5 5 5 5 2 14 20 14 12 12 12 12 The above values are the maximum allowable values for moment and load. Refer to each graph regarding the maximum allowable moment and maximum allowable load for a particular piston speed.
size 1 4/2 (P A/B) Mounting with VK300 Valve model C [dm3/ (sbar)] b Cv C [dm3/ (sbar)] b Cv Grommet VV061 The VK300 series can be mounted on the same manifold base VV5K3 of VK3000 series.
8 1/2 3/4 0.68 Side 1.29 0.68 Bottom 1.29 3-10-22 23 ISO Standard Solenoid Valve: Size 2 Metal Seal/Rubber Seal Series VQ7-8 Model Flow characteristics 1 4/2 (P A/B) 4/2 5/3 (A/B EA/EB) (1) (2) Port size Model Response time (ms) Weight (kg) Series Number of positions b C[dm3/(sbar)] Cv b Cv C[dm3/(sbar)] VQ7-8-FG-S3.0 0.24 12 2.4 0.18 10 Metal seal 40 or less 0.64 Single 2 position 3
LEC-OM08003 // LEC-T1 Series LEC6 LECPA TB Ver2.1 .5 .7 1. .9 1.1 .9 1.9 2.10 1.2 .11 1.11 2. .12 3. .13 3.1 .13 (1).13 (2)Tree .13 3. .14 (1).14 (2)Tree .15 4.16 5. .17 5.1 .18 5.2 .19 (1).19 (2).19 5.3 .20 (1).21 (1-1) LECPLECA 22 (2) .23 (2-1) LECPLECA 23 (2-1-a) TB Ver1.**. 23 (2-1-b) TB Ver2.**. 25 (2-2) LECPLECA 27 (2-2-a) TB Ver1.**. 27 (2-2-b) TB Ver2.**. 29 (2-3) LECPLECA .32 1
OUT2 17 OUT output bit Accumulated 1 32 Accumulated 2 33 Flow rate 1 34 Flow rate 2 35 Connected with hardware output SW output bit (Not connected as OUT2 does not have the hardware) Temperature 1 36 Temperature 2 37 Pressure 1 38 Pressure 2 39 Pulse output 2 65 This is valid only when the output object of OUT2 is pulse output.
/2 63.5 ( 20 Stroke)/2 61 ( 25 Stroke)/2 63.5 ( 30 Stroke)/2 63.5 ( 40 Stroke)/2 66 ( 50 Stroke)/2 66 ( 65 Stroke)/2 71 ( 75 Stroke)/2 68.5 ( 90 Stroke)/2 73.5 ( 100 Stroke)/2 68 ( 5 Stroke)/2 68 ( 10 Stroke)/2 70.5 ( 15 Stroke)/2 68 ( 20 Stroke)/2 70.5 ( 25 Stroke)/2 68 ( 30 Stroke)/2 70.5 ( 40 Stroke)/2 75.5 ( 50 Stroke)/2 75.5 ( 65 Stroke)/2 80.5 (
Width across flats 24 Hexagon width across flats 19 28 Width across flats 24 ZX ZR A 6 ZM 3 B A ZH B 18 ZU Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com 18 ZL ZY ZQ (mm) Model A 40 ZPT40H-B8 C M8 x 1.25 40 ZPT40H-B10 42 M10 x 1.5 B 42 ZF (mm) B 42 50 ZPT50H-A14
Note 1) 1 1/4B 90 1 1/2B 120 Note 2) 2B 200 2 1/2B 315 3B 450 Description Part no.
Fig. 5.2-2 Key operation (2/2) show the operation of keys of the thermochiller.
L D d m t d H B C l IY-G04 IY-G05 C type 10 for shaft 41.6 50.6 9.6 13.4 36.2 44.2 1.55 2.05 1.15 1.15 M14 x 1.5 M18 x 1.5 8 11 22 27 25.4 31.2 C type 14 for shaft 10 14 -0.040 -0.076 -0.050 -0.093 9-12-19 20 Simple Joint: 32 to 63 Type A Mounting Bracket 2-D T1 T2 M W V U F B E (mm) Joint and Mounting Bracket (Type A, Type B) Part No.
N.O. 1 (P) 3 (R) 1 (P) 3 (R) a c e d a c e d (A) (A) 2 2 g g 3 (R) 1 (P) 3 (R) 1 (P) b b f f Component parts Replacement parts Note Zinc die-casted No.
Note 2) V, S and R specifications are 45T, 45T1.
dEC2 (Subtraction OUT2) 0: 10^-2 1: 10^-1 2: 10^0 3: 10^1 4: 10^2 5: 10^3 6: 10^4 7: 10^5 8: 10^6 AC_E_L (Setting L of the accumulated flow value conversion factor) Setting of the accumuated flow value conversion factor Unit specification (Unit): When "L" is selected. 1071 0x042F 0 R/W U8 2 Y 0: 10^-2 1: 10^-1 2: 10^0 3: 10^1 4: 10^2 5: 10^3 6: 10^4 7: 10^5 8: 10^6 Accumulated value setting
JXC-OMT0034CN (GW)(CC-Link) / LEC-GMJ2 1. . 4 2. . 6 2.1 . 6 2.2 . 6 2.3 . 7 2.4 () . 8 (1) . 8 (2). 8 (3)(LEC) . 8 (4). 8 (5) . 8 (6) . 9 (7) . 9 3. . 10 3.1 . 10 3.2 . 12 3.3 . 13 (1)(LECGMJ2) . 13 (2)DIN (LECGMJ2D) . 13 3.4 . 14 (1) . 14 (2) . 14 4. . 15 4.1 (STATION NO.,B RATE) . 15 4.2 (CN2SW) . 16 4.3 (LEC) . 17 5. . 19 5.1 CN4 . 19 5.2 CN3 . 19 5.3 CN1CONT . 19 5.4 CN2PC
24 21 22 41 14 32 16 12.5 50 8 10 56 7 26.5 51 181 247 REC L/Axial foot G H F G Width across flats B2 2-Rc(PT)P K A lNA F AL 2-NN Relieving port M5 X 0.8 Standard port H1 H2 I Width across flats B1 Relieving port D C B 4-LD LH MM 2-4 3.2 N N X X Y S+Stroke Y LX Z LS+Stroke LZ ZZ+Stroke (mm) A AL B B1 B2 C D F G H H1 H2 I K LD LH LS LX LZ MM N NA Bore size Stroke range 20 M8 X 1.25 18 15.5
ZPG13C-7A-X2 7 7 7 7 ZP13C ZP 16 C ZPG16C-7A-X2 7 7 7 8 ZP16C ZP 20 C ZPG20C-7A-X2 9 10 10 11 ZP20C ZPT3-7A-X2 ZP 25 C ZPG25C-7A-X2 10 10 10 11 ZP25C ZP 32 C ZPG32C-7A-X2 10 11 11 12 ZP32C ZP 10 B ZPG10B-7A-X2 7 7 7 8 ZP10B ZPT2-7A-X2 ZP 13 B ZPG13B-7A-X2 7 8 8 8 ZP13B ZP 16 B ZPG16B-7A-X2 8 8 8 9 ZP16B ZP 20 B ZPG20B-7A-X2 11 11 11 13 ZP20B ZPT3-7A-X2 ZP 25 B ZPG25B-7A-X2 11 12
C"=l C'=l C;l C,=l C;l C;l C"=t Flg. 7.28.1 In Series circuit, all devices having a C" of 1 and the resulting impact on the circuit,s ovsrall C, \i_ --+ C,-=t c,=1 .4 C,=1.4 C,=1.73 c"=1 .73 C"=1.73 C"=2 C"=2 C,=2 Q,=2 =.x><+<_= _><_><_# -..>---.> G".v"=1'0 C,*=1.0 C"-=1.0 c,=1 C,=3 c,=4 C-"=r C*"=0.9g C"*=o.06 C,"r.=0.84 C",l/|=0.89 C*=0.82 Flg. 7.28.2 Orifices in series connection and resulting
C"=l C'=l C;l C,=l C;l C;l C"=t Flg. 7.28.1 In Series circuit, all devices having a C" of 1 and the resulting impact on the circuit,s ovsrall C, \i_ --+ C,-=t c,=1 .4 C,=1.4 C,=1.73 c"=1 .73 C"=1.73 C"=2 C"=2 C,=2 Q,=2 =.x><+<_= _><_><_# -..>---.> G".v"=1'0 C,*=1.0 C"-=1.0 c,=1 C,=3 c,=4 C-"=r C*"=0.9g C"*=o.06 C,"r.=0.84 C",l/|=0.89 C*=0.82 Flg. 7.28.2 Orifices in series connection and resulting